KR20130042104A - Handover method and apparatus from local area wireless network to wide area wireless network - Google Patents

Abstract

PURPOSE: A handover method for a local area wireless communication network to a broadband wireless communication network, and a device thereof are provided to continuously offer a communication service by automatically handover between the local area wireless communication network and the broadband wireless network. CONSTITUTION: A wireless communication unit(150) executes wireless communication with a local area wireless communication network and a broadband wireless communication network. A storage unit(140) stores the number of a re-transmission and an integrity failure for data received through the local area wireless communication network. A control unit(160) controls the wireless communication unit in order to handover data from the local area wireless communication unit to the broadband wireless communication network. When the number of the confirmed integrity failure is greater than the maximum number of the predetermined integrity failure and the number of the confirmed re-transmission is greater than the maximum number of the retransmission, the control unit controls the wireless communication unit to handover the data from the local area wireless communication network to the broadband wireless communication network. [Reference numerals] (110) Touch screen; (120) Key input unit; (130) Display unit; (140) Storage unit; (151) Local area wireless communication module; (152) Wide area wireless communication module; (160) Control unit;

Description

HANDOVER METHOD AND APPARATUS FROM LOCAL AREA WIRELESS NETWORK TO WIDE AREA WIRELESS NETWORK}

The present invention relates to a method and apparatus for handover from a local area wireless communication network to a wide area wireless communication network. In particular, a hand that automatically performs a handover from a local area wireless communication network to a wide area wireless communication network when the channel interference is severe during communication with the local area wireless communication network. Over method and apparatus.

IEEE 802.11 is a technology for wireless communication in a small area. It is a standard for wireless LAN, Wi-Fi, developed by the 11th working group of IEEE's LAN / MAN Standards Committee (IEEE 802). Means. In these narrow areas, handover methods vary. For example, there is a handover method using signal strength. This method checks the signal strength of the beacon frame transmitted by the neighboring access point when the signal strength of the currently connected Wi-Fi network, that is, the local area wireless network, is soft. Will occur). There is also a handover method from a local area network to a wide area network. This method automatically handovers to the wide area wireless network when it leaves the currently connected local area wireless network.

Indiscriminately installed access points have recently been an issue. That is, telecom service providers are indiscriminately installing their access points in hot-spot zones to attract customers. As a result, channel interference is severe, causing re-transmission of data, and even data loss, and thus, communication services cannot be sustained. Therefore, in such a hot spot zone, the need for handover from a short range wireless communication network to a wide area wireless communication network has emerged. However, in the conventional handover method, only handover is performed based on signal strength, and there is a problem in that it cannot properly cope with channel interference.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and a handover method and apparatus for continuously providing a communication service by automatically handing over to a wide area wireless communication network when a channel interference is severe during communication with a local area wireless communication network. For the purpose of providing it.

In the handover method according to the present invention, determining whether the data received through the local area network is intact. If the data is not intact, determining whether the data is received within a predetermined threshold time from a predetermined reference time point. If the data is received within the threshold time, confirming, by the storage unit, the number of integrity failures and the number of retransmissions for the data; and the number of confirmed integrity failures exceeds a maximum value of a predetermined number of integrity failures. And if the checked number of retransmissions exceeds a maximum value of a predetermined number of retransmissions, handover from the local area network to a wide area network.

A handover device according to the present invention includes a wireless communication unit for wireless communication with a local area network and a wide area network and a storage unit for storing the number of times of integrity failure and retransmission for data received through the local area network and the local area network And a control unit for controlling the wireless communication unit to hand over to the wide area wireless communication network, wherein the control unit determines whether the data has been received within a predetermined threshold time from a predetermined reference time point if the data is intact. Is received within the threshold time, the storage unit checks the number of integrity failures and the number of retransmissions of the data, wherein the number of confirmed integrity failures exceeds a maximum value of a predetermined number of integrity failures. Times of retransmissions If the number exceeds a maximum value of a predetermined number of retransmissions, it is characterized in that the control to handover from the local area network to the wide area network.

As described above, according to the handover apparatus and method of the present invention, when a channel interference is severe during communication with a local area wireless communication network, the handover is automatically performed to a wide area wireless communication network, thereby providing a continuous communication service.

1 is a block diagram of a handover apparatus according to an embodiment of the present invention.
2 is a structural diagram of a MAC frame of IEEE 802.11.
3 is a flowchart illustrating a handover method according to an embodiment of the present invention.
4 is a graph illustrating a handover method according to an embodiment of the present invention.
5 is a diagram illustrating separation of channels used for IEEE 802.11.
6 is a flowchart illustrating a handover method according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a method and apparatus for handover from a local area network to a wide area network according to a preferred embodiment of the present invention will be described in detail. However, in describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Before describing the present invention, it is to be understood that the terminology used herein is for the purpose of description and should not be interpreted to limit the scope of the present invention. Accordingly, the specification and drawings are only exemplary embodiments of the present invention, and do not represent all of the technical idea of the present invention, and thus, various equivalents and modifications may be substituted for them at the time of the present application. Should be understood.

In the present invention, the handover apparatus may include a wireless communication unit including a short range wireless communication module and a wide area wireless communication module, and perform handover between heterogeneous networks. That is, the handover apparatus according to the present invention may perform a handover from a local area wireless communication network to a wide area wireless communication network. Here, the short range wireless communication network may be Wi-Fi, Bluetooth, or wireless LAN. The wide area wireless communication network may be a 3-generation mobile communication network, a 3.5-generation mobile communication network, or a 4-generation mobile communication network. Specifically, all mobile networks cannot be enumerated, but Global System for Mobile communications (GSM), Code Division Multiple Access (CDMA), Wideband Code Division Multiple Access (WCDMA), World Interoperability for Microwave Access (WiMAX), and Long Term (LTE) Evolution), TD-SCDMA (Time Division Synchronous Code Division Multiple Access), and the like. In addition, the handover device in the present invention is also used for all information and communication devices such as notebook PC, Portable Multimedia Player (PMP), Personal Digital Assistant (PDA), tablet PC, mobile phone, smart phone (Smart Phone) and applications thereof Applicable is obvious. In the following description, it is assumed that the handover device corresponds to a smart phone.

1 is a block diagram of a handover apparatus according to an embodiment of the present invention.

1, a handover device according to an embodiment of the present invention includes a touch screen 110, a key input unit 120, a display unit 130, a storage unit 140, a wireless communication unit 150, and a controller 160. It can be made, including).

The touch screen 110 transmits a touch event to the controller 160. The touch events may be classified into touch and drop, drag and drop, and flick and drop according to their operation. Here, touch and drop is an operation of pressing a point and then releasing a finger, and drag and drop is an operation of moving a finger in a predetermined direction while releasing a point and then releasing it. , Moving your finger quickly and then releasing it. The controller 160 may distinguish the flick and the drag by the moving speed. In addition, the touch and drop may be classified into a tap and a press according to the touch time. That is, a tap is a touch operation of releasing a finger after a short touch, and a press is a touch operation of releasing a finger after a relatively long touch. In addition, the touch events may be classified in various ways according to location, direction, distance, and pressure. Meanwhile, the touch screen 110 may include a resistive type, a capacitive type, a pressure type, or the like.

The key input unit 120 is composed of a plurality of keys for manipulation of the handover device, and transmits a key event to the control unit 160. Here, the key event may be divided into a power on / off event, a volume control event, a screen on / off event, and the like.

The display unit 130 converts the image data received from the control unit 160 into an analog signal for display. In addition, the display unit 120 divides the screen into an indicator region, a main region, and a sub region under the control of the controller 160, displays the time, battery level, and reception rate in the indicator region, and displays the main screen in the remaining two regions, respectively. And the sub screen. Here, the main screen may be any one of a lock screen, a home screen, and an application execution screen. Here, the lock screen is an image generally displayed when the screen of the display unit 130 is turned on. Also, the home screen is an image including a plurality of icons for executing an application. Meanwhile, the sub screen may be an image including an application icon which is being executed or user's favorite. Alternatively, the sub screen may be configured as a menu for changing the main screen.

The storage 140 stores a program and data necessary for the operation of the handover device, and may store data such as an operating system, an application, an image, audio, and video. In addition, the storage unit 140 includes a main storage unit and a secondary storage unit. The auxiliary memory may be a flash memory and the main memory may be a RAM.

The main memory is the space where the operating system and applications are loaded. That is, when the handover device is booted, the operating system is executed in a state loaded from the auxiliary memory to the main memory. The application is also executed while being loaded from the auxiliary memory into the main memory. When the application ends, the application is deleted from the main memory. Meanwhile, the auxiliary memory unit is a space for storing an operating system (OS), various applications, and various data. The auxiliary memory may be divided into a data area and a program area. In particular, the data area according to the present invention includes a reception time T _now , a threshold time T _yield for determining whether to perform a handover, a reference time point T _upt , and a sequence number of the received data. ), The number of retransmissions, the number of integrity failures, and the like. Here, the integrity means a measure of the quality of the data received from the network as is well known, that is, the integrity failure means that the quality of the data as a result of the inspection of the integrity of the data does not meet the predetermined criteria do. This integrity failure is described in detail below with reference to the accompanying drawings. The reference time point T _upt may be a time point at which the handover device requests data through a local area network. The handover device receives the requested data from the local area network. If the integrity of the received data fails, the handover device may _{update the} reference time point T _upt to the reception time point T _now of the received data.

The wireless communication unit 150 transmits and receives signals related to cellular phone communication, short message service (SMS) or multimedia message service (MMS), voice call, video call, and data communication. In addition, the wireless communication unit 150 converts the data signal received from the control unit 160 to an analog signal, converts the converted analog signal into a wireless signal, and amplifies the converted wireless signal to transmit to the communication network, and from the communication network Low noise amplification of the received wireless signal, converts the low noise amplified wireless signal into an analog signal, converts the converted analog signal into a data signal and outputs to the controller 160. Also, a local area wireless communication module 151 for connecting to a local area wireless communication network such as a Wi-Fi network and a wide area wireless communication module 152 for connecting to a wide area wireless communication network such as 3G and 4G may be used. It is made to include.

The controller 160 controls the overall operation of the handover device and a signal flow between internal blocks of the handover device. In particular, the controller 160 controls the short range wireless communication module 151 to access the short range wireless communication network. In addition, the controller 160 performs an algorithm for determining a handover according to the present invention while connected to a local area network, and performs handover from the local area network to the wide area network when the handover condition is satisfied. . Such a handover algorithm will be described in detail with reference to FIGS. 2 to 5.

First, referring to FIG. 2, the structure of a MAC frame of IEEE 802.11, which is a standard of a wireless network, will be described.

The IEEE 802.11 MAC frame is used for wireless communication, and is composed of a Mac header and a frame body. Here, the MAC header is composed of frame control, Duration / ID, address 1, address 2, address 3, sequence control, address 4, frame body and frame check sequence (CS) as shown in FIG. do. Here, the FCS is for checking the integrity of the MAC frame. For example, the controller 160 bundles the remaining parts of the MAC frame except for the FCS by 4 bytes and then adds them together. The controller 160 may determine that the MAC frame is intact when comparing the summed values with the FCS. The frame body is an Ethernet frame used for wired communication, and is composed of an Ethernet frame header and data. Here, the Ethernet frame header is composed of a preamble, a destination address, a source address, a type / length, and an FCS. Here, the FCS is for checking the integrity of the Ethernet frame. In addition, the data of the Ethernet frame may be composed of IP header, TCP header and data.

3 is a flowchart illustrating a handover method according to an embodiment of the present invention.

Referring to FIG. 3, in step 301, the short range wireless communication module 151 transmits a radio signal for requesting data to a local area wireless communication network under the control of the controller 160. Accordingly, in step 302, the short range wireless communication module 151 receives a radio signal from the short range wireless communication network. Next, in step 303, the short range wireless communication module 151 converts the received wireless signal into a digital signal, that is, a MAC frame, and transmits the converted wireless signal to the controller 160. In step 304, the controller 160 determines whether the MAC frame is intact using the FCS of the MAC header in the MAC frame received from the short range wireless communication module 151. If it is determined that the result is intact, the flow proceeds to step 305.

4 is a graph for explaining a process of determining whether the received data is received within a threshold time. In step 305, the controller 160 determines whether the MAC frame has been received within a threshold time. Referring to FIG. 4, the controller 160 determines whether the MAC frame is received within a threshold time T _yield from the reference time point T _upt after confirming the reception point T _{now of the} MAC frame. If the determination result is received within the threshold time T _yield , the controller 160 proceeds to step 306. On the other hand, if the MAC frame is received after the threshold time ( T _yield ), the data may be transmitted late due to an error in the local area network itself, rather than channel interference (Channel Interferenc). Therefore, in this case, since the channel interference is severe and does not correspond to the present invention for automatic handover from the local area network to the wide area network, the controller 160 may terminate the handover algorithm for the currently received MAC frame. have. In step 306, the controller 160 counts the number of CRCFailed integrity failures, updates the reference time point T _upt to the reception time point T _now , and then proceeds to step 210.

On the other hand, if the MAC frame is intact as a result of the determination in step 304, the flow proceeds to step 307. In step 307, the controller 160 checks the sequence number of the TCP header, and then proceeds to step 308. In operation 308, the controller 160 determines whether the MAC frame has been received within the threshold time T _yield from the reference time point T _upt . In operation 308, the controller 160 checks whether the MAC frame is retransmitted. That is, in step 308, the controller 160 compares the sequence number of the currently received MAC frame with the sequence number stored in the storage 140. If the MAC frame is received within the threshold time ( T _yield ) and the currently received sequence number and the previously stored sequence number (that is, the sequence number of the previously received MAC frame) match, the controller 160 Proceed to step 309. On the other hand, if the MAC frame is received after the threshold time T _yield or the two sequence numbers do not match, the controller 160 may terminate the handover algorithm for the currently received MAC frame. Here, if the two sequence numbers are different, the controller 160 updates the stored sequence number to the currently received sequence number. In step 309, the controller 160 counts the number of times of retransmission of data, updates the reference time point T _upt to the reception time point T _now , and then proceeds to step 310.

In step 310, the controller 160 determines whether the number of integrity failures exceeds the allowable value, that is, the maximum value of integrity failure, and the number of retransmissions exceeds the allowable value, that is, the maximum retransmission value. If any one of the number of integrity failures and the number of retransmissions does not exceed the allowable result, the controller 160 ends the handover algorithm for the currently received MAC frame. On the other hand, if both the number of integrity failures and the number of retransmissions exceed the allowable value, the flow proceeds to step 311. In step 311, the controller 160 performs a handover from the local area network to the wide area network. That is, in step 311, the controller 160 stops the wireless communication through the local area wireless communication network and controls the wide area wireless communication module 152 to perform wireless communication through the wide area wireless communication network. As described above, according to the handover method according to an embodiment of the present invention, even if the electric field strength is high, when the data is intact due to interference between the wireless communication channels or the data is repeatedly retransmitted, a wide area in the local area network is automatically Handover to a wireless communication network is possible.

5 is a diagram illustrating separation of channels used for IEEE 802.11. Referring to FIG. 5, 2.4 GHz band is used in IEEE 802.11, and there are 14 channels in total, and an interval between channels is 5 MHz, and each channel has a band of 22 MHz. As shown in Fig. 5, the respective channels are not independent of each other but overlap. Therefore, if at least four or more access points are installed in the same hot spot zone, channel interference occurs. Here, the hot spot zone is a public place where a lot of people gather (eg, an airport, a coffee shop, etc.). Telecommunications service providers are deploying access points in these hot spot zones competitively and indiscriminately. Accordingly, there is a problem in that the data to be transmitted and received is not intact and data retransmission occurs from time to time, so that communication between the terminal and the access point cannot be performed smoothly. Therefore, when using the handover algorithm according to the present invention, it is possible to automatically handover from the local area network to the wide area network.

6 is a flowchart illustrating a handover method according to another embodiment of the present invention.

Referring to FIG. 6, in step 601, the short range wireless communication module 151 transmits a radio signal for requesting data to a local area wireless communication network under the control of the controller 160. Accordingly, in step 602, the short range wireless communication module 151 receives a wireless signal from the short range wireless communication network. Next, in step 603, the short range wireless communication module 151 converts the received wireless signal into a digital signal, that is, a MAC frame, and transmits the converted wireless signal to the controller 160. In operation 604, the controller 160 determines whether the MAC frame is intact by using the FCS of the MAC header in the MAC frame received from the short range wireless communication module 151. If it is determined that the result is intact, the flow proceeds to step 605. In step 605, the controller 160 checks the reception time T _{now of the} MAC frame, and then determines whether the MAC frame has been received within the threshold time T _yield from the reference time T _upt . If the determination result is received within the threshold time T _yield , the controller 160 proceeds to step 606. On the other hand, if the MAC frame is received after the threshold time T _yield , the controller 160 may terminate the handover algorithm for the currently received MAC frame. In step 606, the controller 160 counts the number of times of integrity failure (CRCFailed), updates the reference time point T _upt to the reception time point T _now , and then proceeds to step 612.

On the other hand, if the MAC frame is intact as a result of the determination in step 604, the process proceeds to step 607. In step 607, the controller 160 determines whether the Ethernet frame is intact by using the FCS of the Ethernet frame header in the MAC frame received from the short range wireless communication module 151. If it is determined that the Ethernet frame is not intact, the flow proceeds to step 605. On the other hand, if the Ethernet frame is intact, step 608 is reached. In step 608, the controller 160 checks the sequence number of the TCP header and then proceeds to step 609. In step 609, the controller 160 checks the reception time T _now of the frame of the MAC frame, and then determines whether the MAC frame has been received within the threshold time T _yield from the reference time T _upt . In operation 609, the controller 160 compares the sequence number of the currently received MAC frame with the sequence number stored in the storage 140. If the MAC frame is received within the threshold time T _yield , and the currently received sequence number and the previously stored sequence number match, the controller 160 proceeds to step 610. On the other hand, if the MAC frame is received after the threshold time T _yield or the two sequence numbers do not match, the controller 160 may terminate the handover algorithm for the currently received MAC frame. Here, if the two sequence numbers are different, the controller 160 updates the stored sequence number to the currently received sequence number. In step 610, the controller 160 counts the number of times of retransmission of the data, updates the reference time point T _upt to the reception time point T _now , and then proceeds to step 611.

In step 611, the controller 160 determines whether the number of integrity failures exceeds the allowable value, that is, the integrity failure maximum value, and the number of retransmissions exceeds the allowable value, the retransmission maximum value. As a result of the determination, if any one of the number of integrity failures and the number of retransmissions does not exceed the allowable value, the controller 160 may terminate the handover algorithm for the currently received MAC frame. On the other hand, if both the number of integrity failures and the number of retransmissions exceed the allowance, the process proceeds to step 612. In operation 612, the controller 160 performs a handover from the local area network to the wide area network.

The handover method of the present invention as described above is implemented in the form of program instructions that can be executed by various computer means can be recorded in a computer-readable recording medium. In this case, the computer-readable recording medium may include a program command, a data file, a data structure, etc. alone or in combination. On the other hand, the program instructions recorded on the recording medium may be those specially designed and configured for the present invention or may be available to those skilled in the art of computer software. The computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs, DVDs, and magnetic disks such as floppy disks. -Magneto-Optical Media, and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. In addition, program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device described above may be configured to operate as one or more software modules to perform the operations of the present invention.

The method and apparatus for handover from a short range wireless communication network to a wide area wireless communication network of the present invention are not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

110: touch screen 120: key input unit
130: display unit 140: storage unit
150: wireless communication unit 151: short-range wireless communication module
152: wide area wireless communication module 160: control unit

Claims (22)

Determining whether the data received through the local area network is intact
If the data is not intact, determining whether the data has been received within a predetermined threshold time from a predetermined reference time point
If the data is received within the threshold time, confirming, by the storage unit, the number of integrity failures and the number of retransmissions of the data;
Handover from the local area network to a wide area network when the number of confirmed integrity failures exceeds a maximum value of a predetermined number of integrity failures and the number of confirmed retransmissions exceeds a maximum value of a predetermined number of retransmissions. Handover method comprising the step of; The method of claim 1,
If the data is received within the threshold time, counting the number of integrity failures for the data, and updating the reference time point to the time of receipt of the data. The method of claim 1,
If the data is intact, determining whether the data has been received within the threshold time and whether the data has been retransmitted in the local area network; and
If the data has been received within the threshold time and the data has been retransmitted, counting a number of retransmissions for the data. The method of claim 3, wherein
Determining whether the data is retransmitted,
Identifying a sequence number of a TCP header in the data;
And comparing the checked sequence number with a previously stored sequence number. The method of claim 4, wherein
Counting the number of times of retransmission of the data,
If the two sequence numbers match, counting the number of times of retransmission of the data. The method of claim 1,
Determining whether the data is intact,
And checking the integrity of the MAC frame using the Frame Check Sequence of the MAC frame in the data. The method according to claim 6,
The integrity failure,
And the MAC frame is intact as a result of the inspection. The method of claim 1,
Determining whether the data is intact,
And checking the integrity of the Ethernet frame by using a frame check sequence of the Ethernet frame in the data. The method of claim 8,
The integrity failure,
And a case in which the Ethernet frame is intact as a result of the check. The method of claim 1,
The reference time point,
The handover method, characterized in that the time of the request of the data and the data is intact and updated to the time of receiving the data. The method of claim 1,
The short-range wireless communication network is a handover method, characterized in that any one of Wi-Fi, Bluetooth (Bluetooth) and wireless LAN. The method of claim 1,
The wide area wireless communication network is any one of a third generation (3-Generation) mobile communication network, 3.5 (3.5-Generation) generation mobile communication network and 4 (4-Generation) generation mobile communication network. A wireless communication unit wirelessly communicating with a local area network and a wide area wireless network; and
A storage unit storing the number of integrity failures and the number of retransmissions of data received through the local area wireless communication network;
A control unit controlling the wireless communication unit to handover from the local area wireless communication network to the wide area wireless communication network,
The control unit,
If the data is not intact, it is determined whether the data has been received within a predetermined threshold time from a predetermined reference time point.
If the data is received within the threshold time, the storage unit checks the number of integrity failures and the number of retransmissions of the data,
Handover from the local area network to the wide area network when the number of confirmed integrity failures exceeds a maximum value of a predetermined number of integrity failures and the number of confirmed retransmissions exceeds a maximum value of a predetermined number of retransmissions. Handover device, characterized in that to control to. The method of claim 13,
The control unit,
And if the data is received within the threshold time, counting the number of integrity failures for the data, and updating the reference time point to the time of receipt of the data. The method of claim 13,
The control unit,
If the data is intact, it is determined whether the data has been received within the threshold time and whether the data has been retransmitted in the local area network.
If the data is received within the threshold time and the data is retransmitted, counting the number of retransmissions for the data. The method of claim 13,
The control unit,
And checking the integrity of the MAC frame by using a frame check sequence of the MAC frame in the data. According to claim 16,
The integrity failure,
And the MAC frame is intact as a result of the inspection. The method of claim 13,
The control unit,
And checking the integrity of the Ethernet frame by using a frame check sequence of the Ethernet frame in the data. According to claim 18,
The integrity failure,
The handover device, characterized in that when the Ethernet frame is intact as a result of the check. The method of claim 13,
The control unit,
The reference time point is set as the request time point of the data,
And when the data is not intact, updating the reference time point to the reception time point of the data. The method of claim 13,
The short-range wireless communication network is a handover device, characterized in that any one of Wi-Fi, Bluetooth (Bluetooth) and wireless LAN. According to claim 13,
The wide area wireless communication network is any one of a third generation (3-Generation) mobile communication network, 3.5 (3.5-Generation) generation mobile communication network and 4 (4-Generation) generation mobile communication network.

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